Tamil Nadu Tancet 2018 Syllabus

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PART – III (Group A)

1. CIVIL ENGINEERING

Structural Engineering: Mechanics: Stress-Strain Relationships – Principal stresses and Principal
strain in two dimension and three dimension. Composite Bars – Composite Beams – Elastic
Constants. Beams and Bending – Shear Force and Bending Moment Diagrams – Flexural and shear
Stresses. Slope and Deflection of Beams. Thin and Thick Cylinders. Torsion. Theories of Failure –
Unsymmetrical Bending – Curved Beams – Theories of Columns. Combined Direct and Bending
Stresses.

Structural Analysis: Static and Kinematic Indeterminancy – Energy Principles – Deflection of pin
jointed plane frames – rigid frames. Classical Method of Analysis of indeterminate structures (Slope
deflection and Moment Distribution) – Matrix Method. Arches and Suspension Bridges – Influence
Line for Determinate and Indeterminate Structures. Plastic Analysis of Structures.

Building Materials: Cement – Concrete – properties of ingredients – Mix Design – Quality Control –
Special Concrete – Concreting Methods – Brick – Brick Masonry – Stone – Timber – Steel.

Concrete Structures: Design Methods – Limit State Design for beams, slabs, columns and footings
– retaining walls – water Tanks. Prestressed Concrete – Principles – Methods – Losses – Deflection –
Design.

Steel Structures: Steel Sections – Connections – Design of Tension and Compression Members –
Beams, Column Bases – Plate Girders and Trusses.

Soil Mechanics and Foundation Engineering: Soil Mechanics: Nature of soil – phase
relationships – soil classification; Soil water – static pressure – effective stress principle; permeability
– seepage; Stress distribution in soil – Consolidation (Terzaghi’s one dimension consolidation theory);
Compaction shear strength of soil – Mohr - Coulomb theory – determination of shear strength by
different methods; Slope stability analysis – protection measures.


Foundation Engineering: Site investigation – scope and objectives – drilling techniques – depth
and spacing of boreholes – sampling techniques – penetration tests (SPT and SCPT) – plate load test
– selection of foundation; Foundation types – shallow foundation – bearing capacity (Terzaghis
Theory and BIS formula) – allowable bearing pressure – bearing capacity from field tests –
settlement of foundation – allowable settlement – Codal provisions; Design of foundations – Isolated,
combined and raft foundation; Pile foundations – static and dynamic pile driving formulae
(Engineering News and Hiley method) – Pile groups – capacity and settlement – Codal provisions –
pile load test – negative friction on piles; Earth pressure theories – Earth pressure on retaining walls
– stability analysis of retaining wall.

Transportation Engineering: Highway Planning: Road Classification, Geometric Design of
Highways, Construction of Earth, WBM, Bituminous and concrete roads, Design of flexible and rigid
pavements. Drainage of roads, Maintenance of roads. Railways, Airways, Docks and Harbour
Planning: Railway alignment components of permanent way, geometric design Airport planning,
components of airport, site selection, planning for terminal building, runways. Harbour planning,
components of harbour, inland water transport. Traffic Engineering: Traffic characteristics, Traffic
surveys, Traffic Signals, Road markings and signs.
Water Resources Engineering: Fluid Mechanics and hydraulics: Properties of fluids. Fluid statics
and relative equilibrium. Basic concepts of fluid flow – kinematics and dynamics. Concept of system
and control volume application to continuity, momentum and energy equations. Dimensional analysis
and model studies. Laminar and turbulent flow through pipes. Boundary layers. Steady uniform and
gradually varied flow in open channels. Rapidly varied flows. Turbines and pumps and positive
displacement pumps.

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Hydrology and Ground Water: Hydrometeorology. Hydrologic cycle. Precipitation and its
measurements. Abstractions. Runoff estimation. Hydrograph analysis. Unit Hydrograph. Hydrologic
extremes floods and droughts. Rainwater harvesting. Properties of aquifer. Groundwater
development. GEC norms. Well hydraulics. Steady and unsteady flows. Ground water quality.

Irrigation Engineering: Irrigation system. National water policy. Components of irrigation network.
Design of lined and unlined channels. Waterways, head works, gravity dams and spillways. Design of
weirs on permeable foundation. Soil water relations. Crop water requirements. Irrigation scheduling
and methods. Duty, delta and base period. Irrigation water quality. Irrigation water management.
Participatory approach.

Environmental Engineering: Water and waste water Engineering; Water requirements; water
demand; quality standards; Development of water supply source, conveyance system; basic unit
processes and operations for water treatment; water distribution; sewage characteristics; sewage
treatment, primary and secondary treatment of sewage, sludge disposal, sewage disposal.

Air Pollution and Control: Types of Pollutants, their sources and impacts, air pollution meteorology,
air pollution control, air quality standards and limits.

Noise pollution and Control: Impacts of noise, permissible limits of noise pollution, measurement
of noise and control of noise pollution.

Surveying: Chain surveying, compass surveying – plane table surveying – levelling – theodolite
surveying – Temporary and permanent adjustments for level and theodolite – trigonometric levelling
– tacheometry – traversing – contouring – Computation of areas and volumes. Curve Setting –
simple, compound and reverse curves – transition curves – vertical curves – Electromagnetic distance
measurement – Total station – construction surveying – hydrographic surveying – route survey –
triangulation – astronomical survey.


2. COMPUTER SCIENCE AND ENGINEERING AND INFORMATION TECHNOLOGY

Applied Probability And Operations Research: Random Processes, Probability Distributions, Queuing
Models and Simulation, Testing of Hypothesis, Design of Experiments.

Discrete Mathematical Structures: Formal Language and Automata - Graph Theory.

Compiler Design: Optimization – Code Generation – Implementation – Principles of Programming
Languages – Programming Paradigms.

Operating Systems And System Software: Process Management, Storage Management, I/O
Systems, Design and Implementation of LINUX OS, assemblers, Loaders, Linkers, Macro Processors.

Distributed Systems: Communication and Distributed Environment, Distributed Operating
Systems, Distributed Shared Memory, Protocols, Fault Tolerance and Distributed File Systems,
Distributed Object Based Systems.

Programming And Data Structures: Problem Solving Techniques, Trees, Hashing and Priority
Queues, Sorting, Graph, Heap Search.

Algorithm Analysis And Design Techniques : Dynamic Programming, Greedy Algorithms,
Advanced Algorithms, NP Completeness and Approximation Algorithms.

Microprocessors And Microcontrollers - Computer Architecture And Organization : Digital
Fundamentals, Combinational Circuits, Synchronous and Asynchronous Sequential Circuits,
Instruction Set Architecture(RISC,CISC,ALU Design), Instruction Level Parallelism, Processing Unit
and Pipelining, Memory Organization.

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Digital Signal Processing: FFT, Filter Design.

Computer Networks: Data Communication Systems, Applications.

Database Management Systems: Relational Model, Database Design, Implementation
Techniques, Distributed Databases, Object Oriented Databases, Object Relational Databases, Data
Mining and Data Warehousing.

Software Engineering Methodologies : Software Product and Processes - Software
Requirements Management - Requirement Engineering, Elicitation, Analysis, Requirements
Development and Validation, Requirements Testing - Object Oriented Analysis And Design – Modular
Design, Architectural Design, User Interface Design, Real Time Software Design, System Design,
Data acquisition System - Software Testing And Quality Assurance - SQA Fundamentals, Quality
Standards, Quality Metrics, Software Testing Principles, Defects, Test Case Design Strategies,
Software Quality and reusability, Software Project Management, Software Cost Estimation, Function
Point Models, Software Configuration Management, Software Maintenance.

Artificial Intelligence: Intelligent Agents, Search Strategies, Knowledge Representation, Learning,
Applications.

Mobile Computing: Wireless Communication Fundamentals, Telecommunication Systems, Wireless
Networks.

Security In Computing : Program Security, Security in Operating Systems, Database and Network
Security, Scientific Computing, Information Coding Techniques, Cryptography, Network Security.



3. ELECTRICAL AND ELECTRONICS ENGINEERING


Electrical Circuits and Fields: KCL, KVL, Nodal & Mesh analysis, transient response of D.C and A.C
networks; sinusoidal steady-state analysis; resonance in electrical circuits; concepts of ideal voltage
and current sources, network theorems, driving point admittance and transfer functions of two port
network, three phase circuits; Fourier series and its application; Gauss theorem, electric field intensity
and potential due to point, line plane and spherical charge distribution, dielectric, capacitance
calculations for simple configurations; Ampere’s and Biot-Savart’ law, inductance calculations for
simple configurations.

Electrical Machines: Single phase transformer – equivalent circuit, phasor diagram, tests, regulation
and efficiency; three phase transformer –connections; auto transformer; principles of energy
conversion, windings of rotating machines; D.C generators and motors-characteristics, starting and
speed control, armature reaction and communication: three phase induction motors-performance
characteristics, starting and speed control; single-phase induction motors; synchronous generators –
performance, regulation; synchronous motors – starting characteristics, applications, synchronous
condensers; fractional horsepower motors: permanent magnet and stepper motors.

Power Systems: Electric power generation – thermal, hydro, nuclear; transmission line parameters;
steady –state performance of overhead transmission lines and cables and surge propagation;
distribution system, insulators , bundle conductors, corona and radio interferences effects; per-unit
quantities; bus admittance and impedance matrices; load flow; voltage control and power factor
correction; economic operation; symmetrical components, analysis of symmetrical and unsymmetrical
faults; principle of over current, differential and distance protections; concepts and solid state relays
and digital protection; circuit breakers; principles of system stability –swing curves and equal area
criterion; HVDC system – Principle of operation, control and design consideration, HVDC circuit
breaking; FACTS - Reactive power control, Uncompensated transmission line, Series compensation,
SVC, thyristor control, series capacitor, static synchronous compensator, UPFC and applications.

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Control Systems: Principles of feedback; transfer function; block diagram; steady –state errors;
stability-Routh and Nyquist criteria; Bode plots; compensation; root loci; elementarystate variable
formulation; state transition matrix and response for Linear time Invariant systems.

Power Electronics and Drives: Semiconductor power devices-diodes, transistors, thyristors, triacs,
GTO, MOSFETs and IGBTs-static characteristic and principles of operation; triggering circuits; phase
control rectifiers; bridge converters-fully controlled and half controlled; principles of choppers and
inverters, basic concepts of adjustable speed dc and ac drives.

Microprocessor and Microcontrollers: Microprocessor : General 8 bit microprocessor Architecture-
8085, 8086 processor – Architecture, Memory, I/O interfacing, Instruction set, Addressing modes,
Timing diagram & delays, Machine cycles, Interrupts, counters, Assembly language programming.
Microcontrollers: 8 bit microcontroller -8051 architecture, bus configuration, Instruction sets,
programming & applications.

Digital Signal Processing: Analog signals - sampling & Aliasing- Discrete time signals & systems –
LTI systems – Convolution sum-Difference equation representation-Z Transform & its Inverse –
Discrete Fourier series & Fourier transform- Radix 2 FFT – Decimation in me and frequency – Inverse
DFT using FFT – Analog Butterworth & Chebyshev filter design –IIR & FIR filter design and
Realization.

High Voltage Engineering: Causes of overvoltages and its effects on power system – Lightning,
switching surges and temporary overvoltages – concepts of reflections and refraction of travelling
waves. Dielectric breakdown- Gaseous breakdown – Vacuum breakdown, Corona discharges –
Generation of high voltage, High current and its measurements – DC, AC, impulse voltages and
currents; High Resistance with series ammeter – Dividers, Resistance, Capacitance and Mixed dividers
– Peak Voltmeter , CVT, Electrostatic Voltmeters – Sphere Gaps – High current shunts; High voltage
testing of electrical power apparatus as per International and Indian standards – Insulation
Coordination.

Electric energy – Conservation and utilization: Fundamentals of Electric drives – choice and
applications; traction motors – characteristic features – electric braking train movement and energy
consumption; Design of illumination systems and various lighting schemes; Electric heating – methods
of electric heating and its types – Electric welding - Principles of the conversion of solar radiation into
heat; Solar Collectors-flat-plate collectors – concentrating collector – cylindrical parabolic; Wind
energy conversion system – basic principles – site selection – basic components – Classification of
WECS – Types of wind machines.



4. ELECTRONICS AND COMMUNICATION ENGINEERING


Circuit Analysis: DC Circuit analysis, Thevenin’s and Norton’s equivalent circuits, Sinusoidal steady
state analysis, Transient and resonance in RLC circuits.

Electronic Devices: Diodes, Bipolar Junction Transistors, FET, MOSFET, UJT, Thyristor.

Electronic Circuits: Small signal amplifiers using BJT and FET devices, Large signal amplifiers,
Power supplies, Feed back amplifiers, Oscillators, Pulse shaping circuits. Digital Electronics: Logic
gates, Combinational circuits, Sequential circuits. Linear Integrated Circuits: Operational
amplifiers and its applications, PLL, Voltage regulators, A/D and D/A converters. Measurements
and Instrumentation: Transducers, Digital Instruments, Display and Recording systems.
Microprocessor and its applications: Microprocessors-8085 and 8086 architectures and
interfaces, Micro-controller and applications.

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Electromagnetic Fields: Static Electric and Magnetic fields, Time varying Electric and Magnetic
fields, Maxwell equations. Transmission Lines and Networks: Transmission line equations,
impedance matching, Filters. EM waves and waveguides: Guided waves, Rectangular and
cylindrical waveguides. Antennas and Propagation: Aperture antennas, arrays, Propagation of
radio waves. Microwave Engineering: Microwave tubes, semiconductor devices, Passive
components, Microwave measurements.

Communication Theory and Systems: AM, FM and PM, Sampling and Quantization, PCM, DM,
ADM, Multiplexing. Digital Communication: Base band signaling, Band pass signaling, Error
control coding, Spread spectrum techniques. Computer Communication Networks: Definition of
layers, data link protocols, Network interconnection. Message routing technologies, End-End
protocols.

Optical Communication: Optical Fibers, optical transmitters and receivers.

Signals and Systems: Continuous time signals and systems-Fourier Transform, Laplace transform,
Discrete time signals and systems-DTFT, DFT, Z-Transform. Digital Signal Processing: IIR and
FIR filters, Realization and implementation, Quantization effects. Control Systems: Transfer
function, Time and frequency response analysis, Stability analysis, state variable analysis



5. MECHANICAL ENGINEERING


Mechanics, Kinetics and Dynamics :
Statics of Particles, Equilibrium of Rigid bodies, Properties of Surfaces and Solids, Dynamics of
Particles, Friction and Elements of Rigid Body Dynamics, Basics of Mechanisms, Gears and Gear
Trains, Friction in Machine Elements, Force Analysis, Balancing, Single Degree Free Vibration, Forced
Vibration, Mechanisms for Control and Vibration.

Strength of Materials and Design :
Stress, Strain and Deformation of Solids, Transverse Loading on Beams and Stresses in Beams,
Torsion, Deflection of Beams, Energy Principles, Thin Cylinders and Thick Cylinders, Spherical Shells,
Fundamentals of Design for Strength and Stiffness of Machine Members, Design of Shafts and
Couplings, Design of Fasteners and Welded Joints, Design of Springs, Design of Engine parts, Design
of Bearings, Design of Flywheels, Design of Transmission Systems for Flexible Elements, Spur Gears
and Parallel Axis Helical Gears, Bevel Gears, Worm Gears and Crossed Helical Gears, Design of Gear
Boxes, Design of CAM, Clutches and Brakes.

CAD / CAM / CIM / FEA :
Fundamentals of Computer Graphics, Geometric Modeling, Visual Realism, Assembly of Parts, CAD
Standards, Fundamentals of CIM, Production Planning and Control and Computerized Process
Planning, Cellular Manufacturing, Flexible Manufacturing System and Automated Guided Vehicle
System, Industrial Robotics, One Dimensional Problems in FEA, Two Dimensional Scalar Variable
Problems, Two dimensional vector variable Problems, Isometric Parametric Formulation.


Materials Science and Metallurgy :
Constitution of alloys and phase diagrams, steels, cast iron, TTT diagram, heat treatment of ferrous
and non-ferrous metal, surface modification techniques, non-metallic materials, mechanical properties
and testing, crystal defects and strengthening mechanisms, conducting and semi conducting
materials, magnetic and dielectric materials, Engineering ceramics, Engineering and commodity
polymers.

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Production Technology :
Foundry Technology, Hot and Cold working, metal forming processes, metal joining processes,
welding metallurgy, welding defects, Metal cutting, center lathe and special purpose lathe, drilling,
milling, grinding, gear cutting, broaching unconventional machining processes, CNC machine tools,
Part programming.

Metrology and Measurements :
Linear and angular measurements, Interferometry-laser interferometers – Types, Computer Aided
Inspection, Basic concept of CMM- Types of CMM, Machine vision, Form measurement-Straightness-
Flatness, Roundness, Surface finish measurement, Measurement of power, flow and temperature.

Thermodynamics: Basic concepts, Zeroth, First and Second laws of thermodynamics;
thermodynamic system and processes; Carnot cycle. irreversibility and availability; behaviour of ideal
and real gases, thermodynamic relations, properties of pure substances, calculation of work and heat
in ideal processes; analysis of thermodynamic cycles related to energy conversion, Fuel and
combustion.

Heat and Mass Transfer: Modes of heat transfer; one dimensional heat conduction, resistance
concept, electrical analogy, unsteady heat conduction, fins; dimensionless parameters in free and
forced convective heat transfer, various correlations for heat transfer in flow over flat plates and
through pipes; thermal boundary layer; effect of turbulence; radiative heat transfer, black and grey
surfaces, shape factors, network analysis; heat exchanger performance, LMTD and NTU methods.

Basic Concepts of Mass transfer – Diffusion Mass Transfer – Fick’s Law of Diffusion – Steady state
Molecular diffusion – Convective Mass Transfer – Momentum, Heat and Mass Transfer Analogy –
Convective Mass Transfer Correlations.

Applications: Power Engineering: Steam Tables, Rankine, Brayton cycles with regeneration and
reheat. I.C. Engines: air-standard Otto, Diesel cycles. Refrigeration and air-conditioning: Vapour
refrigeration cycle, heat pumps, gas refrigeration, Reverse Brayton cycle; moist air: psychrometric
chart, basic psychrometric processes. Turbomachinery: Pelton-wheel, Francis and Kaplan turbines –
impulse and reaction principles – velocity diagrams

Fluid Mechanics: Fluid properties; fluid statics, manometry, buoyancy; control-volume analysis of
mass, momentum and energy; fluid acceleration; differential equations of continuity and momentum;
Bernoulli’s equation; viscous flow of incompressible fluids; boundary layer; elementary turbulent flow;
flow through pipes, head losses in pipes, bends etc.



PART – III (Group B)

6. AUTOMOBILE ENGINEERING

Mechanics: Statics of Particles, Equilibrium of Rigid Bodies, Properties of surfaces and Solids,
Dynamics of particles, Friction and Element of Rigid Body Dynamics – Basics of Mechanism,
Kinematics of Linkage Mechanism, Kinematics of Cam Mechanism, Gears and Gear Trains, Friction,
Force Analysis, Balancing and Vibration.

Strength of Materials and Deign: Stress, Strain and Deformation of solids, Transverse Loading
on Beams and Stresses in Beams, Deflection of Beams, Energy Principles, Thin Cylinders and
Spherical resells Torsion – Fundamentals of design for strength and Stiffness of Machine members,
Design of Shaft and Couplings, Design of Fasteners and Welded Joints, Design of Spring and Engine
parts, Design of Engine parts, Bearing and Flywheel, Design of Transmission system for flexible
elements, Spur Gears and Parallel Axis Helical Gears, Bevel, Worm Gears and Crossed Helical Gears,
Design of Gear boxes, Design of Cam, Clutches and Brakes.

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Thermodynamics: Basic concepts and First Law, Second Law, Entropy and Availability, Properties
of Steam, Air standard cycles, Otto, Diesel and Dual cycles, Air compressors, Rankine cycle, Brayton
cycle, Stream Turbines, Gas Turbine – Steam Nozzle, Refrigeration and air Conditioning, Conduction,
Phase Change Heat Transfer and heat Exchangers, Radiation, Refrigeration Cycles, Refrigerants,
System Components, VAR, Psychrometry, Air Conditioning system.

Production Technology: Foundry Technology, Hot and Cold Working, Forging, Principles and
Application of Joining Process, Centre Lathe and Special purpose Lathes, Reciprocating Machines,
Milling Machines and Gear Cutting, CNC Machine Tools, Part Programming.

Automotive Chassis: Front axle types front wheel geometry condition for true rolling motion
steering geometry Ackermann and Davis steering. Types of steering gear box. Propeller shaft
Universal joints. Final drive differential types. Type of brakes and constructional details. Types of
suspension, Independent suspension-front and rear Rubber, pneumatic, hydro-elastic suspension.

Automotive Transmission: Construction and operation of friction clutches. Different types of gear
boxes. Fluid couplings and torque converters. Wilson gear box. Hydrostatic drive systems. Electric
drive. Continuously Variable Transmission (CVT) types of car bodies classification of bus bodies.

Vehicle Body Engineering: Body optimization techniques for minimum drag. Wind tunnel
technology. Classification of vibration, definitions. Single degree of freedom, free, forced and
damped vibrations. Rolling resistance, cornering properties of tyres. Directional stability of vehicle
Choice of suspension spring rate calculation of effective spring rate. Vehicle suspension in fore and
aft. Vehicle ride model, Load distribution.

Automotive Electrical and Electronics: Types of Batteries, Principle, Construction, Starting
System. D.C. Generators and Alternators. Regulations for charging Electronic ignition systems. Types
of sensors and actuators for automobiles. Microprocessor controlled devices in automobiles.
Components for electronic engine management system. PID control types of solid state ignition
systems and their operation. Fuel control maps open loop control of fuel injection and closed loop
lambda control-integrated engine control system. Onboard diagnosis system.

Pollution and Control: Emission formation in SI and CI Engines. Effects of design and operating
variables controlling techniques constant volume sampling systems. Measurement techniques of HC,
CO, NOx and Smoke emission. Dilution Tunnel and Sound level meters.

Alternate Fuels: Properties alcohols, vegetable oils, biogas natural gas LPG and hydrogen as
engine fuels methods of using all the fuels in SI and CI engines. Performance, emission and
combustion behaviour of the fuels in SI and CI engines.


7. AERONAUTICAL AND AEROSPACE ENGINEERING

Fluid Flow Equations – Incompressible Viscous and Inviscid flows – Dimensional analysis – Fluid Machinery
– Basic concepts in thermodynamics – Basics of propulsion and heat transfer – Air standard cycles –
Properties of pure substance – Stresses in beams – Deflection of beams – Torsion – springs and columns
– Biaxial stress system – Statically determinate and indeterminate structures – Energy methods – Failure
theories- Induced stresses Basic aspects of boundary layer theory – Flow through compressors,
combustion chambers, gas turbines and nozzles of gas turbine engines – Unsymmetrical bending – Shear
flow in open and closed sections – Buckling of plates and stress analysis – Fundamentals of computational
fluid dynamics – Grid generation – Time dependent methods and finite volume methods-finite element
methods – discrete. Continuum and isoparametric elements – Field problem and method of solutions –
composite materials.

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Basics of flight mechanics – Aircraft configurations – Airplane structures – Airplane power plants –
Airplane control systems – Aircraft instruments – Aircraft engine, air conditioning and pressurization
system – Airfoil theory – Subsonic wing theory – Steady level flight, gliding and climbing flight and
accelerated flight of airplanes – Fundamentals of hypersonic air breathing and rocket propulsion systems
– Stability and control of airplanes – Fundamentals of supersonic flows – High speed flows over airfoils,
wings and airplanes – Experimental techniques for high speed flows.



8. ARCHITECTURE


Building Materials, Construction and Technology : Lime, Brick, Stone, Clay products; Timber,
Industrial timber; Paints and varnishes, Concrete, Special concrete and light weight concrete; Ferrous
metals; non ferrous metals; Glass; Plastics; Eco friendly materials; Thermal insulation materials and
acoustic materials. Construction techniques and practices using the above listed materials; Damp and
water proofing; Pest control;; Construction systems and equipment; Pre- stressed concrete and Tensile
Structures; Grids domes; folded plates; Flat Slabs. Low cost construction & appropriate technologies.

History of Architecture : Indian architecture- Hindu and Islamic; Indo Saracenic; Secular architecture
of the princely states; Colonial and Post Independence Architecture; Works of masters such as Charles
Correa; B V Doshi; Ananth Raje; Raj Rewal; Laurie Baker; Nari Gandhi; Kanvinde.
Western architecture- Ancient Greek and Rome; Early Christian; Gothic and Renaissance; Baroque; Neo
Classicism; Chicago School and development of skyscraper; Modern architecture: Art and Crafts; Art
Noveau; Expressionism and Cubism; Bauhaus; International style; Post Modernism and De
constructivism; Critical Regionalism; Theories and projects of F L Wright; Le Corbusier; Gaudi; Gropius;
Aalto; Mies; Eisenmann; Zaha Hadid; Soleri; Hasan Fathy; Ando; Bawa; Gehry; Libeskind; Toyo Ito;
Louis Khan; Tschumi; Greg Lynn; Assymptote.


Theory and principles of Architecture: Elements and ordering principles; Organisation of form
and space; Design methodology and Creative thinking; Pattern language; Contemporary process:
Diagrams, Shape grammar, fractals, Digital hybrid, Liquid architecture.

Building Services: Water supply and distribution systems; water and waste management;
Sewerage system; Electrical systems; Illumination and lighting; Air conditioning; Fire Safety; building
automation and IBMS.
Building Science : Climate responsive architecture; design of solar shading devices; acoustics &
building design; Architecture & Energy- Active & passive solar architecture, Day lighting & natural
ventilation, Landscape designs; Landscape & environment control.

Housing; Urban Design and Town Planning : National Housing Policy; Indra Awas Yogana;
Housing standards; housing projects in India; Urban morphology of early and contemporary cities;
Case Studies on urban revitalization from developed and developed economies; Planning concepts-
Patrick Geddes, Ebeneezer Howard, Le Corbusier, C A Perry; Urban planning, regional planning and
Urban renewal in the Indian context.

9. AGRICULTURAL AND IRRIGATION ENGINEERING

Machine Design: Design and selection of machine elements – gears, pulleys, chains and sprockets
and belts; shafts and couplings, temporary and permanent joints, energy storing elements and
engine components, bearings – measurement of force, torque, speed, displacement and acceleration
on machine elements.

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Farm Machinery: Soil tillage forces acting on a tillage tool; hitch systems and hitching of tillage
implements; functional requirements, principles of working, construction and operation of manual,
animal and power operated equipment for tillage, sowing, planting, fertilizer application, inter-
cultivation, spraying, mowing, chaff cutting, harvesting, threshing and transport; calculation of
performance parameters – field capacity, efficiency, application rate and losses; cost analysis of
implements and tractors.

Sources of Power: Sources of power on the farm – human, animal mechanical, electrical, wind,
solar and biomass; bio-fuels.

Farm Power: Thermodynamic principles of I.C. engines; I.C. engine cycles; engine components;
fuels and combustion; lubricants and their properties; I.C. engine systems – fuel, cooling, lubrication,
ignition, electrical, intake and exhaust.

Tractors and Power Tillers: Type, selection, maintenance, and repair of tractors and power tillers;
tractor clutches and brakes; power transmission systems – gear trains, differential, final drives and
power take-off; mechanics of tractor chassis; traction theory; three point hitches; mechanical
steering and hydraulic control systems used in tractors.

Fluid Mechanics: Ideal and real fluids, properties of fluids; hydrostatic pressure and its
measurement; hydrostatic forces on plane and curved surface; continuity equation; Bernoulli’s
theorem; laminar and turbulent flow in pipes, Darcy- Weisbach and Hazen Williams equations,
Moody’s diagram; flow through orifices and notches; flow in open channels.

Soil Mechanics: Engineering properties of soils; fundamental definitions and relationships; index
properties of soils permeability and seepage analysis; shear strength, Mohr’s circle of stress, active
and passive earth pressures; stability of slopes.

Hydrology: Hydrological cycle and components; meteorological parameters, their measurement and
analysis of precipitation data; runoff estimation; hydrograph analysis, unit hydrograph theory and
application; stream flow measurement; flood routing.

Surveying and Leveling: Measurement of distance and area; instruments for surveying and
leveling; chain surveying, methods of traversing; measurement of angles and bearings, plane table
surveying; types of leveling; theodolite traversing; contouring; computation of areas and volume.

Erosion Control: Mechanics of soil erosion, soil erosion types, wind and water erosion, factors
affecting erosion; soil loss estimation; biological and engineering measures to control erosion;
terraces and bunds; vegetative waterways; gully control structures, drop, drop inlet and chute
spillways; earthen dams; land use capability classification; rainwater harvesting structures, check
dams and farm ponds.

Soil-Water–Plant Relationship: Water requirement of crops; consumptive use and
evapotranspiration; measurement of infiltration, soil moisture and irrigation water infilitration.

Irrigation Engineering: Design of irrigation channels and underground pipelines; irrigation
scheduling; surface, sprinkler and micro irrigation methods, design and evaluation of irrigation
methods; irrigation efficiencies.

Agricultural Drainage: Drainage coefficient; planning, design and layout of surface and sub-
surface drainage systems; leaching requirement and salinity control; irrigation and drainage water
quality and reuse.

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Groundwater Hydrology: Groundwater occurrence; Darcy’s Law, steady flow in confined and
unconfined aquifers, evaluation of aquifer properties; groundwater recharge.

Wells and Pumps: Types of wells, steady flow through wells; classification of pumps; pump
characteristics; pump selection and installation.

Drying: Steady state heat transfer in conduction, convection and radiation; Psychrometry;
concentration and drying of liquid foods- evaporators, tray, drum and spray dryers; hydrothermal
treatment; drying and milling of cereals, pulses and oilseeds.

Size Reduction and Conveying: Mechanics and energy requirement in size reduction of granular
solids, particle size analysis for comminuted solids; size separation by screening; pneumatic, bucket,
screw and belt conveying; cleaning and grading; effectiveness of grain cleaners; centrifugal
separation of solids, liquids and gases.

Storage Systems: Controlled and modified atmosphere storage; godowns, bins and grains silos.

Preservation of Food: Water activity, sorption and desorption isotherms; kinetics of microbial
death – pasteurization and sterilization of milk and other liquid foods; preservation of food by cooling
and freezing.

Systems Analysis: Linear programming, Irrigation water allocation – cropping pattern optimization;
Dynamic Programming – Application to design and operation of reservoirs, Irrigation management;
Simulation, application to irrigation scheduling; Decision support systems.

IT in Agricultural Systems: Precision farming; Crop production modeling; on-line measurement of
plant growth in the greenhouse, models of plants production and expert systems in horticulture; e-
governance, e-commerce, e-business systems & applications, Technology enhanced learning systems
and solutions.

Management of Water Resources: IWRM framework, emerging issues in water management,
watershed development, capacity building; participatory approach, Water Users Association, Farmers
Association, CADP, water delivery systems, people’s participation.


10. BIOTECHNOLOGY

Bioprocess Engineering: Analysis of STR, Analysis of other configurations, Bioreactor scale-up,
Modeling and simulation of Bioprocesses, Bioreactor considerations in Enzyme systems.

Cell and Molecular Biology: Cells, Cell lines, Cell culture, Cell Organelles and its functions, types of
Cell divisions, cell cycle and its regulation mechanism. Transport mechanism (passive, Active, ATPase
pumps and Na
+
/K
+
pumps), receptors, signal Transduction, models of signal Amplification Secondary
messengers, Structure of Nucleic Acids, Replication, Transcription, Translation and DNA repair
mechanism in Prokaryotes and Eukaryotes. Promoters, Enhancers and Transcription factors. Genetic
Codes and Lac & trp operons.

Biochemistry and Microbiology: Structure, function and metabolism of carbohydrates, lipids,
Nucleic Acids and proteins. Enzymes and its mechanism. Electron Transport Chain system, High
energy compound and reducing equivalents. History of Microbiology, Classification of Microorganism,
structural organization and multiplication of microorganism. Physical and chemical control of
microorganisms, Primary and Secondary metabolites and their applications.

12


Genetic Engineering: Genes, Control of gene expression, Restriction enzymes, Vectors (prokaryotic
and Eukaryotic) construction of cDNA and genomic Library. Screening of DNA libraries, PCR, RACE,
PCR, RAPD, RFLP, AFLP, site directed mutagenesis, Methods of Nucleic acid sequencing. Cloning
vectors in plants, Transgenic and Knockout animals.

Immunology: Immune system, immunity, lymphoid organs, antigens, adjutants, types of immune
response. Activation and different ion of T-cells and B –cells, Antibodies, Genes and generation of
diversity, monoclonal antibodies. MHC APC, regulation of T-cell and B-cell responses. Immunity to
viruses, Bacteria fungi and parasites, cytokines, complements, immunosuppression, allergy and
hypersensitivity. Vaccines, Transplantation, Tumor, Immunology, Autoimmunity and Autoimmune
disorders.

Bioinformatics: Search engines and algorithms, data management, data technology, biological
databases and their uses. Pair wise sequence alignment (local and global), multiple sequence
alignment, dot matrix, dynamic programming and Bayesian methods. BLAST, FASTA, machine
learning and Hidden Markov models. Phylogenetic tree analysis. Bimolecular and cellular computing,
microarray analysis and system Biology.


11. BIO MEDICAL ENGINEERING

Physiology: Cell, cell potentials, sodium potassium pump, joints, respiratory mechanism conducting
system of heart, volume and pressure changes, regulation of heart rate, structure of neuron
conduction of action potential in neuron, brain lobes.

Biochemistry: Carbohydrates, structural importance, metabolic pathways and metabolic disorders,
lipid chemistry, its metabolic pathways and disorders.

Circuit analysis: DC circuit analysis, Thevenin’s and Norton’s equivalent circuits, sinusoidal steady
state analysis, Transient and resonance in RLC circuits.

Electron devices and circuits: Diodes, Bipolar junction transistor, FET, MOSFET, UJT, Thyristor,
Feedback amplifier, oscillators, Differential amplifier, common mode and difference mode analysis.
Digital Electronics: Logic gates, combinational circuits, sequential circuits.

Linear Integrated Circuits: Operational amplifiers and its applications, voltage regulators, A/D and
D/A converters.

Microprocessor and Applications: Microprocessors – 8085 and 8086 architectures and interfaces,
microcontrollers and applications.

Signals and Systems: Continuous time signals and systems, Fourier transform, Laplace transform,
Discrete time signals and systems, DTFT, DFT, Z transforms.
Digital signal processing: IIR and FIR filters, realisation and implementation.
Control systems: Transfer function, Time and frequency response analysis, stability analysis.
Communication theory: AM, FM, PM, sampling and quantisation, TDM, FDM, Entropy, Huffman
coding, FDMA, TDMA.

13


Bio Medical Instrumentation: Strain gauge, applications, capacitive transducer, RTD, Scintillation
counter, Photo multiplier tube, phototransistor, piezoelectric transducer, thermal recorder, indirect
measurement of blood pressure, pH electrode, GSR, spirometer, Electrodes, Half cell potential, offset
potential, types of electrodes and their equivalent circuits, artifacts during biopotential recording,
characteristics of bio amplifier. ECG and EEG, lead system.

Bio Medical Equipment : Blood cell counter, Holter monitor, pacemaker and types, Need for
defibrillator, types of defibrillator, biofeedback, Waveforms in stimulators, need for telemetry,
modulation schemes used in telemetry, parameters to be monitored in heart lung machine and
hemodialyser units, tissue response to different types of diathermy, physiological effects of electricity.

Bio Mechanics: Elasticity, Viscoelasticity, Flow properties of blood, mechanical properties of bones,
types of joints, lubrication of joints.

Medical Imaging Systems: Ionising radiation and non ionising radiation, effects, cavitation effect,
types of radioactive decay, interaction with matter, attenuation, annihilation, Compton scattering,
Production of X- Ray, radiation units: Roentgen, Gray Sievert, CT generations, MR signal generation,
T1 and T2 relaxation processes, Doppler shift, ultrasound Echo generation, PACS.


12. CHEMICAL ENGINEERING

Fluids Mechanics and Particle Technology: Classification of fluids, flow patterns, manometry,
continuity equation, Navier-Stokes’ equation, Bernoulli equation, Dimensional analysis, Flow through
pipes, Boundary layer concepts, Flow through fixed and fluidized beds, pumps – classification affinity
laws, performance curves. Characteristics of solids, size analysis, screening, storage, Conveyance,
Size reduction, Classifier, Centrifuges, Cyclones. Filtration, Mixing and agitation.

Chemical Technology and Process Calculations: Gas calculations, Material balance and Energy
balance – Steady and unsteady state, Humidity and Saturation, Combustion, Thermo chemistry,

Role of chemical Engineers in process industry, Cement, glass and ceramic industries, paper industry
– oil, soap, detergent industries, petroleum refining and petrochemicals – polymer industry,
Fertilizers, Food industry and other important process industries.

Thermodynamics and Kinetics: Laws of thermodynamics, PVT behaviour of fluids, Termodynamic
formulations, compression of fluids, Phase equilibria – Application of the correlation and prediction.
Free energy change and reaction equilibria. Refrigeration- principles, performance. Reaction rate –
laws, theories, analysis. Design of reactors, Factors affecting design, Thermal reactors and rates of
heat exchanges. Non-ideal reactors, Hetrogenous reactors and solid catalysts, Gas – solid catalytic
reactors, Gas-solid non-catalytic reactors, Gas-liquid reactors.

Heat and Mass Transfer: Modes of Heat transfer. Heat conduction- steady and unsteady state,
Natural and forced convection, Heat transfer to fluids with phase change, heat transfer coefficients,
evaporation, heat exchangers – design and construction.

Diffusion, Mass transfer coefficients, humidification, drying, absorption, distillation, extraction,
leaching, crystallization, adsorption and ion exchange, analogies.

14


Process control and Computer Applications in Chemical Engineering: Open loop systems,
closed loop systems, Frequency response, Advanced control systems, Instrumentation. Application of
spread sheet packages in chemical engineering, Process flow sheeting, Development of software for
design of equipments. Dynamic programming in Chemical Engineering.

Organic and Surface Chemistry: Carbohydrates, Oils, Fats and Waxes, Heterocyclic compounds,
proteins, dyes and dyeing, pharmaceutical chemistry. Adsorption – types, adsorption of gases over
solids, isotherms, applications, ion exchange, adsorption chromatography, Catalysis – types,
Equations.

Environmental Pollution and Control: Various methods of reduction of pollution, types of
pollution, Air pollution- sources and effects – control techniques, water pollution – sources and effects
– control techniques, Soil pollution – sources and effects – control techniques and solid waste
disposal.


13. EARTH SCIENCES

Physical Geology and Geomorphology: Weathering process, kinds, products. Internal structure of
the earth, fundamentals of plate tectonics. Landforms produced by River, winds, glacier and sea.
Drainage pattern, Drainage Index, geomorphic features.

Mineralogy, Petrology, Stratigraphy, Paleontology and Structural Geology: Physical
properties of Industrial minerals classification, origin and description of Igneous, sedimentary and
Metamorphic rocks. Origin of Himalayas major earth geological events through time scale. Origin of
life, types of fossils evolution of mammals & Man. Joints, Folds, Faults and structures.

Economic Geology, Ore Geology, Geochemistry : Origin, occurrence and distribution of
Economic mineral deposits-Iron, manganese, gold, zinc, graphite, lead, coal and petroleum deposits.
Ore-dressing, ore-reserves, estimation. Major elements, application in environmental studies REE-its
implication in genesis/ provenance of rocks.

Remote Sensing, Geophysics and Hydrogeology : Sensors & Platforms- Indian Remote Sensing
– Spectral system characterizes of rocks & minerals – Photogeology – Photogrametry - Hydrogeology
– Groundwater – occurrence, movement, Aquifer, field parameters & Lab methods of estimations.

Engineering Geology, Environment Geology and Marine Geology: Engineering properties of
Rock. Geological investigation required for Dam, Tunnel, highways and building constructions.
Renewable and non-renewable resources, pollution. Continental and marine environmental studies.
Ocean features, physical, chemical & biological resources of the ocean.


14. GEO INFORMATICS ENGINEERING

i) Surveying: Chain surveying – compass surveying – plane table surveying – levelling – theodolite
surveying – Temporary and permanent adjustments for level and theodolite – trigonometric levelling
– tacheometry – traversing - contouring – Computation of areas and volumes.

Curve setting – simple, compound and reverse curves – transition curves – vertical curves -
construction surveying – hydrographic surveying – route survey – triangulation – astronomical survey
– Electromagnetic distance measurement – Total station and GPS surveying – adjustment of errors in
surveying.

15


Remote Sensing: Components of RS – electromagnetic spectrum – wave theory, particle theory,
Stefan Boltzmann law and Wien’s law – radiation sources – radiation quantities – EMR interaction
with atmosphere and earth materials – platforms and sensors – data product types- digital data file
formats – resolution concept – elements of visual interpretation – interpretation keys.

Advanced remote sensing: Principles, Characteristics and applications of thermal, hyperspectral,
microwave and LIDAR images.

Digital Image Processing: Sources of Image degradation and correction procedures –
preprocessing – image enhancement techniques – image classification – spectral discrimination –
pattern recognition concepts – Baye’s approach – signature and training sets – separability test –
supervised classification – minimum distance to mean, parallelepiped, MLC – unsupervised classifiers
– ISODATA, K-means – support vector machine – segmentation (spatial, Spectral) – tree classifiers –
accuracy assessment.

Advanced classifiers – fuzzy set classification – sub – pixel classifier – hybrid classifiers, texture based
classification – object based classifiers – artificial neural nets – hebbian leaning – expert system,
types and examples – knowledge systems.

Photogrammetry: Types of photographs – photographic overlaps – film – based and digital aerial
cameras – construction – camera accessories – Camera calibration – geometric properties of aerial
photographs – stereo plotters & orientation – aerotriangulation – terrain modeling – orthophoto –
digital photogrammetry work station and its components – analytical stereo plotters vs digital
photogrammetry – work station basic system function – storage system – stereoscopic viewing and
measuring system – photogrammetry project planning – other acquisition systems – UAV – terrestrial
imaging, oblique photography, close range photogrammetry, terrestrial and mobile LIDAR.

Cartography: Cartography: Functions, uses and types of maps – map scales and contents – map
projections – shape, distance, area and direction properties – map co-ordinate systems – elements of
a map – map Layout principles – symbols and conventional signs – map lettering – map production
and reproduction – map generalization – geometric transformations.

Digital Cartography: Data capture and representation – digital map design – geovisualization – digital
map modelling.

Geographical information system: Components of a GIS – data and attributes – scales/levels of
measurements – spatial data models – raster and vector data structures – data entry – scanner –
raster data Input – raster data file formats – georeferencing – vector data input – digitiser – datum
projection and reprojection – coordinate transformation – topology – adjacency, connectivity and
containment – topological consistency – non topological file formats – attribute data linking – linking
external databases – GPS data integration – raster to vector and vector to raster conversion – data
quality – completeness, logical consistency, positional accuracy, temporal accuracy, thematic
accuracy and lineage – metadata – GIS standards – interoperability – OGC – spatial data
infrastructure – data output – map compilation – chart/graphs.

Spatial analysis and applications: raster analysis – vector analysis – network analysis – surface and
geostatistical analysis – customization – web gis – mobile mapping.

RS and GIS Applications: RS and GIS applications in the fields of agriculture and forestry, urban
planning, hydrology and water resources, oceanography, geology, meteorology, environmental
management, climate change and disaster mitigation & management.

16


15. INSTRUMENTATION, ELECTRONICS & CONTROL ENGINEERING

Electrical Circuits :
Voltage and current sources: independent, dependent, ideal and practical; v-i relationships of
resistor, inductor, and capacitor; transient analysis of RLC circuits with dc excitation.
Kirchoff’s laws, mesh and nodal analysis, superposition, Thevenin, Norton, maximum power transfer
and reciprocity theorems.

Peak, average and rms values of ac quantities; apparent, active and reactive powers; phasor
analysis, impedance and admittance; series and parallel resonance, realization of basic filters with R,
L and C elements.

One-port and two-port networks, driving point impedance and admittance, open - circuit, and short
circuit parameters.

Signals and Systems :
Periodic, aperiodic and impulse signals; Laplace, Fourier and z-transforms; transfer function, time
response and frequency response of first and second order linear time invariant systems; convolution
and correlation.

Discrete time system: impulse response, frequency response, pulse transfer function; DFT and FFT;
basics of IIR and FIR filters.

Analog Electronics :
Characteristics and applications of diode, Zener diode, BJT and MOSFET; small signal analysis of
transistor circuits; feedback amplifiers.

Characteristics of operational amplifiers; applications of opamps: difference amplifier, adder,
subtractor, integrator, differentiator, instrumentation amplifier, precision rectifier, active filters and
other circuits.

Oscillators, signal generators, voltage controlled oscillators and phase locked loop.

Digital Electronics :
Combinational logic circuits, minimization of Boolean functions; IC families: TTL and CMOS;
Arithmetic circuits, comparators, Schmitt trigger, multi-vibrators, sequential circuits, flip-flops, shift
registers, timers and counters.

Sample-and-hold circuit, multiplexer, analog-to-digital (successive approximation, integrating, flash
and sigma-delta) and digital-to-analog converters (weighted R and R-2R ladder). Characteristics of
ADC and DAC (resolution, quantization, significant bits, conversion/settling time).

8-bit microprocessor and microcontroller: applications, memory and input-output interfacing; basics
of data acquisition systems.

Measurements :
SI units; systematic and random errors in measurement, expression of uncertainty, accuracy and
precision, propagation of errors; PMMC, MI and dynamometer type instruments; dc potentiometer;
bridges for measurement of R, L and C; Q-meter; Measurement of voltage, current and power in
single and three phase circuits; true rms meters; instrument transformers; time, phase and
frequency measurements; digital voltmeter and digital multi-meter; oscilloscope; shielding and
grounding.

17

Sensors and Industrial Instrumentation:
Resistive, capacitive, inductive, piezoelectric, Hall effect sensors and associated signal conditioning
circuits; transducers for industrial instrumentation: displacement (linear and angular), velocity,
acceleration, force, torque, vibration, shock, pressure (including low pressure), flow (differential
pressure, variable area, electromagnetic, ultrasonic, turbine and open channel flow meters)
temperature (thermocouple, RTD (3/4 wire), thermistor, pyrometer and semiconductor); liquid level,
pH, conductivity and viscosity measurement.

Analytical Instrumentation:
Spectral methods of analysis: Spectro-Photometers, sampling systems, source detectors and
applications; conductivity and pH meters; Chromatography; NMR & X ray spectroscopy; GM and
proportional counters; Mass spectrometer.

Communication and Optical Instrumentation:
Amplitude and frequency modulation and demodulation; Shannon's sampling theorem; frequency
and time division multiplexing; Digital Communication : PCM, DPC, amplitude, phase, frequency,
pulse shift keying for digital modulation; optical sources and detectors: LED, laser, photo-diode, light
dependent resistor and their characteristics; Basics of fiber optic sensing.

Control System and Computer Control of Processes:
Feedback principles, signal flow graphs, transient response, steady-state-errors, Bode plot, phase
and gain margins, Routh and Nyquist criteria, root loci, design of lead, lag and lead-lag
compensators, state-space representation of systems; time-delay systems; mechanical, hydraulic and
pneumatic system components, synchro- pair, servo and stepper motors; on-off, P, P-I, P-I-D,
cascade, feed-forward, and ratio controllers.

State models and state equations, controllability and observability, pole assignment.

Programmable logic controllers, SCADA, Distributed Control System and HART & Foundation
Fieldbus.


16. LEATHER TECHNOLOGY

Pre Tanning Operations : Hides & Skins – Histological characteristics structure of hides & skins
defects – curing & preservation methods – Animal by products – soaking, unhairing, liming, deliming,
bating, pickling, depickling and degreasing– Their objectives & principles involved. Biochemistry of
collagen and other substances – chemicals & auxiliaries used in pre-tanning operations – General
pretanning processes for manufacture of different types of heavy and light leathers - Process control
in pretanning – Ecofriendly pretanning operations – Physical and chemical testing - Standards and
quality control measures in pretanning. By products of animal and tannery operations.

Tanning Operations: Tanning materials – Vegetable, mineral and organic - their classification –
chemistry & Technology of tanning materials & methods – characterization manufacture & analysis of
various tanning materials. Theory & mechanism of vegetable, chrome, Aluminium, Zirconium, Iron,
Titarium, Aldehyde, Oil and other organic tanning. Various unit operations involved in tanning
processes their objectives & principles – cleaner processing options – Analysis & characterization of
various types of leathers - Physical and chemical testing - Standards and quality control measures in
tanning operations.

18


Post Tanning and Finishing Operations : Retanning, dyeing – fatliquoring and finishing
operations – Their objectives & principles – chemicals used for the above unit operations – Syntans,
fatliquors, dyes, dye-auxiliaries, pigments, acrylic and protein binders, wax emulsion, fillers, topcoats,
NC, CAB lacquers and lacquer emulsions, feel modifiers, their nature & properties in finishing –
machinery & methods for post tanning and finishing operations – upgradation methods – chemical
and physical properties required for various finished leathers – physical & chemical testing of finished
leathers – Tannery Effluent treatment –Effluent treatment plant - Liquid and solid waste
management.

Leathers & Leather Products : Various types of leathers – upper, sole, garment, leather goods,
sports & specially leathers – their characteristics. Leather supplement and synthetics - Design &
manufacture of footwear, leather goods & garments. Leather Economics and Industrial Management
– Project feasibility reports – organization & management of leather sector – marketing & export of
leather & products - Machines for leather products manufacture - mechanics & operation - IT
applications for leather & product design. Professional Ethics and human values.


17. MATHEMATICS

Algebra: Group, subgroups, Normal subgroups, Quotient Groups, Homomorphisms, Cyclic Groups,
permutation Groups, Cayley’s Theorem, Rings, Ideals, Integral Domains, Fields, Polynomial Rings.
Linear Algebra: Finite dimensional vector spaces, Linear transformations – Finite dimensional inner
product spaces, self-adjoint and Normal linear operations, spectral theorem, Quadratic forms.

Real Analysis: Sequences and series of functions, uniform convergence, power series, Fourier
series, functions of several variables, maxima, minima, multiple integrals, line, surface and volume
integrals, theorems of Green, Strokes and Gauss; metric spaces, completeness, Weierstrass
approximation theorem, compactness.

Complex Analysis: Analytic functions, conformal mappings, bilinear transformations, complex
integration: Cauchy’s integral theorem and formula, Taylor and Laurent’s series, residue theorem
and applications for evaluating real integrals.

Topology: Basic concepts of topology, product topology, connectedness, compactness, countability
and separation axioms, Urysohn’s Lemma, Tietze extension theorem, metrization theorems,
Tychonoff theorem on compactness of product spaces.

Functional Analysis: Banach spaces, Hahn-Banach theorems, open mapping and closed graph
theorems, principle of uniform boundedness; Hilbert spaces, orthonormal sets, Riesz representation
theorem, self-adjoint, unitary and normal linear operators on Hilbert Spaces.

Ordinary Differential Equations: First order ordinary differential equations, existence and
uniqueness theorems, systems of linear first order ordinary differential equations, linear ordinary
differential equations of higher order with constant coefficients; linear second order ordinary
differential equations with variable coefficients, method of Laplace transforms for solving ordinary
differential equations.

Partial Differential Equations: Linear and quasilinear first order partial differential equations,
method of characteristics; second order linear equations in two variables and their classification;
Cauchy, Dirichlet and Neumann problems, Green’s functions; solutions of Laplace, wave and diffusion
equations using Fourier series and transform methods.

19

Calculus of Variations and Integral Equations: Variational problems with fixed boundaries;
sufficient conditions for extremum, Linear integral equations of Fredholm and Volterra type, their
iterative solutions, Fredholm alternative.

Statistics: Testing of hypotheses: standard parametric tests based on normal, chisquare, t and F-
distributions.


Linear Programming: Linear programming problem and its formulation, graphical method, basic
feasible solution, simplex method, big-M and two phase methods. Dual problem and duality
theorems, dual simplex method. Balanced and unbalanced transportation problems, unimodular
property and u-v method for solving transportation problems. Hungarian method for solving
assignment problems.



18. MATERIAL SCIENCE AND CERAMIC TECHNOLOGY

Atomic structure and chemical bonding – crystal structure of materials – Miller indices of directions
and planes – packing geometry in metallic, ionic and covalent solids – determination of crystal
structures by X-ray diffraction – crystal growth techniques – imperfections in crystalline solids and
their role in influencing various properties – Strengthening mechanisms – Diffusion: Fick’s laws and
application of diffusion in sintering, doping of semiconductors and surface hardening of metals.


Metals and Alloys: Solid solutions, Solubility limit, phase rule, binary phase diagrams, lever rule,
intermediate phases, intermetallic compounds, iron-iron carbide phase diagram, heat treatment of
steels, cold, hot working of metals, recovery, recrystallization and grain growth-microstructure,
properties and applications of ferrous and non-ferrous alloys. Polymers: Classification, polymerization,
structure, properties, processing and applications. Composites: properties, processing and applications
of various composites. Nanomaterials: synthesis, properties and applications – Biomaterials – shape
memory alloys.


Mechanical Properties: Modulus of elasticity, yield strength, tensile strength, toughness, plastic
deformation, viscoelasticity, hardness, impact strength, creep, fatigue, ductile, and brittle fracture.
Thermal Properties: heat Capacity, thermal conductivity, thermal expansion of materials. Electronic
properties: concept of energy band diagram for materials – conductors, semiconductors and
insulators, Electrical conductivity – effect of temperature on conductivity, intrinsic and extrinsic
semiconductors. Dielectric properties and applications – Magnetic Properties: Origin of magnetism,
paramagnetism, diamagnetism, antiferro magnetism, ferromagnetism, ferrimagnetism – domain
theory of ferromagnetism – hysteresis – hard and soft magnetic materials – applications.

Ceramic Raw materials: Occurrence, properties and uses of clays, feldspar, quartz, sillimanite,
bauxite, limestone, dolomite, magnesite, rutile, zircon. Synthesis, properties and applications of
calcined alumina, mullite, silicon carbide, boron carbide, tungsten carbide, silicon nitride, boron
nitrate, silicides, SiAION, cermet, Carbon compounds.

Conventional ceramics: Body formulation and preparation of tiles, sanitary ware, tableware,
insulators, stoneware products. Glaze raw materials, fritting process, glaze application methods,
causes and remedies for glaze defects. Formation and structure of glass, glass batch preparation and
melting annealing, special glasses. Different types of refractories, important refractory properties and
applications. Coated abrasives preparation, types of bonds in bonded abrasives, different types of
grinding wheels and grinding process.

Special Ceramics: Preparation and properties of glass fibers, alumina fibers, carbonaceous fibers,
boron fibers. Composites with different matrices and their properties. Basic principle and fabrication of
ceramic capacitors, ferroelectric ceramics, Magnetic ceramics, Varistors and fuel cells. Special coatings
by PVD, CVD, plasma spray, dip coating, electro coatings. Calcium phosphate based and non calcium
phosphate based bio-ceramic materials and their applications.

20


19. PRINTING TECHNOLOGY


Prepress: Principles of Graphic Design, Designing for Print Media, Package Design, Imaging
Technology, Colour reproduction, Digital Prepress, Image carrier preparation for different Printing
process, Quality control in Prepress, Electronic Publishing.

Press: Principles of Print Process, Principle and press configurations for commercial, Newspaper,
Package, Digital Prepress and Press Consumables, Quality control in Press.

Post Press: Finishing operations for different jobs, Mail room operations, Print finishing machines,
Print finishing Consumables, Converting operation for packaging, Surface finishing operation, Quality
in post press operation.

Printing and Packaging Materials: Manufacturing of printing and packaging substrates –
Properties and Testing, Printing Inks for major printing processes – Manufacturing properties and
testing, Quality control aspects.

Print Management: Print operation Management, Cost estimation for various Printing jobs, Design
Management, Financial, Quality and Maintenance, Management for Printing.







20. PHYSICS

Mechanics, Heat and Sound : Vectors – equilibrium - moment of a force – Newton’s laws of
motion – gravitation – work – energy – power – Impulse and momentum – collitions – recoil.
Thermometry of thermal expansion – calorimetry and specific heats – transfer for heat – thermal
process of matter - Law and processes of thermodynamics - Applications. Travelling waves –
oscillations – spring – simple pendulum – forced oscillations – resonance – sound waves –Acoustic
Phenomena and its applications- Doppler effect.

Light and Properties of matter : The nature and propagation of light – reflection of refraction at
plane surfaces – interference – diffraction – polarization. Elasticity – Stress-strain diagram --
hydrostatics – Pressure in a fluid – Pumps – Archimede’s principle – Surface tension – Contact angle –
Capillarity - hydrodynamics - Bernoulli’s equation – Applications and viscosity – Poiseuille’s law –
Stokes law – Reynolds number.

Electricity and Magnetism : Coloumb’s law – Gauss’s law – Applications - electrostatic potential –
capacitors – dielectrics - current – resistance – emf – Kirchoff’s law – thermo electric effect –
applications. Magnetism - magnetic effects of current – motion of charge particles in magnetic field –
cyclotron – magnetic forces on current carrying conductor – Hall effect – electromagnetic induction –
Faraday’s law – Lenz’s law – eddy current – Inductance – mutual and self inductance – magnetic
properties of matters – diamagnetism – paramagnetism – ferromagnetism - domains– Hysteresis -
alternating current – circuits containing resistance, inductance or capacitance – transformer.

Modern physics : Emission and absorption of light – thermionic emission – photoelectric effect –
atomic spectra - atom models – molecular spectra – dual nature of matter and radiation – nuclear
structure – properties – natural radioactivity – nuclear stability - nuclear reactions – fission – fusion –
fundamental particles – high energy physics.

21

Solid State Electronics : Structure and bonding in solids - properties of solids – semiconductors –
intrinsic – extrinsic – PN junction – diode characteristics – Zenar diode – LED, laser diode –
Photodiode – Transistor – action and characteristics – amplifier – oscillator – basic logic gates.


Electron theory of solids: Classical free electron theory – density of states- electron in a periodic
potential – origin of energy band gap – electrical conductivity – thermal conductivity – Widemann-
Franz law

Dielectric and magnetic materials: Different types of polarization – Internal field – Clausius-
Mosotti equation- dielectric breakdown- applications of dielectric materials – Different types of
magnetic materials – domain theory of ferromagnetism – hysteresis - hard and soft magnetic
materials- applications of magnetic materials.

Superconducting materials: General properties of superconducting materials – Meissner effect –
types of superconductors – Hi Tc superconductors- applications

Nanomaterials: Preparation – properties – applications – Carbon nanotubes.









21. PRODUCTION AND INDUSTRIAL ENGINEERING

Basic Mechanisms and Elements of Design : Mechanisms, Friction, Gearing and Cams, Balancing,
Vibration, Fundamentals of Design, Design of Basic Machine Elements, Design of Mechanical drives,
Design of Automotive components, Recent Advances.

Casting, metal forming and metal joining processes : Casting Processes, Welding Processes,
Special Casting Processes, Testing of Castings & Weldments - Fundamentals of Metal Forming,
Forging and Rolling, Extrusion and Drawing Processes, Sheet Metal Forming Processes, Recent Advances,
Mechanisms, Friction, Gearing and Cams, Balancing, Vibration, Fundamentals of Design, Design of Basic
Machine Elements, Design of Mechanical drives, Design of Automotive components, Recent Advances.

Tool Engineering, Machine tool operation, Metrology and Inspection : Mechanics of Metal
Cutting, Tool Material, Tool Wear and Tool Life, Gear Manufacture, General Concepts of measurements,
Linear and Angular measurements, Measurement of Surface Finish Measuring Machines, Metrology of
Screw Thread & Gears, Computer Aided Inspection and Laser Metrology - Strength and rigidity of
machine tool structures, Sideways, Spindles and spindle supports, Machine Tool Dynamics.

Engineering Materials : Introduction and Constitution of Alloys and Phase Diagrams, Heat Treatment,
Ferrous and Non Ferrous Metals, Mechanical Properties and Testing, Welding and Foundry Metallurgy,
Manufacturing Processes for Plastic, Mechanical, Chemical and Electro-chemical energy based processes,
Electrical Energy based Waste Processes, Thermal Energy Process, Polymer Matrix Composites, Metal
Matrix Composites, Ceramics Matrix Composites, Advances in Polymers & Composites.

Product and Process Design, Design of Jigs and Fixtures and Press Tools : Product Design
Concepts, Recent Advances, Process Planning, Estimating, Costing and Elements of Cost, Analysis of
Overhead Expenses, Estimation of Costs for Forging, Casting and Welding, Estimation of Machining Time,
Purpose Types and Functions Of Jigs and Fixtures, Jigs, Fixtures, Press working Terminologies and
Elements of dies and Strip Layout, Design and Development of Dies.

CAD/CAM and CIM : Computer Aided Design, Computer Graphics, Geometric Modelling, Rapid
Prototyping, Concept & Programming of CNC machines, Robotics-anatomy and specifications,
Automated production lines, GT and FMS.

22

Operations Research: Linear Programming, Transportation, Assignment CPM/PERT, Inventory Models,
Decision Analysis, Game Theory, Waiting Line Models.

Operations Management: Concept of Productivity, Method Study and work measurement, Ergonomics,
Forecasting, Aggregate Planning, Capacity Management, MRP, Production Activity Control, Estimation and
Costing, Costing Methods.

Quality, Reliability and Maintenance : Quality Concepts, Total Quality Management and Six Sigma
Concepts, Statistical Process Control, Process Capability Analysis, Acceptance Sampling, Reliability
Concepts, Failure Data Modeling, Reliability Prediction and Modeling, Maintenance Concept, Maintenance
Models, Total Productive Maintenance.




23. TEXTILE TECHNOLOGY


Fibre Science and Technology : Cotton varieties and their properties; silk – pre and post cocoon
operations; varieties of silk and their properties; varieties of wool and their properties; properties of
other natural fibres.

Production and properties of viscose rayon and other regenerated fibres.
Requirements of fibre forming polymers; structural principles of polymeric fibres; fluid flow during
spinning; technology of melt, wet, dry, dry jet wet, liquid crystal and gel spinning of polymeric fibres.
Production, properties and applications of PET polyester, nylon 6, nylon 66, polyacrylonitrile and
polypropylene.

Spin finishes; drawing; heat setting; crimping and texturisation; tow to top converters and tow to
staple converters.

Structural investigation of fibres; study of moisture absorption, tensile behaviour, torsional
rigidity and flexural rigidity, and optical, frictional, electrical and thermal properties of fibres.

Yarn Engineering: Yarn numbering systems- direct, indirect and conversions.
Description and working of short staple spinning machinery - blow-room machinery, card, comber preparatory
machines, comber, draw-frame, speed-frame, ring-frame; calculation of process parameters and process
efficiencies; production calculations.

22. SOCIAL SCIENCES

Geography: Settlement geography-rank-size relationship, urban environment- physical and social, regional
delimitation, central place theory, urbanization in India and Tamilnadu, relationship, concept and types of
region, regional development planning in India, globalization and economics reforms and competitiveness.

Sociology : Social institution, society, community, social roles, norms, status, values, social structure in India,
social change and its relevance to economic development, urbanization as a way of life, social problems of
developed and developing countries, impact of urbanization on society and rural development, impact of IT
industry on society and development.

Economics : Agglomeration economics- internal, external and urbanization economics, economic base of
cities- meaning, types of economic base and methods of identifying economic base, multiplier concept, and
approaches of development, Indian national economy –five year plans, environmental economics, economic
geography of India. Land economics and industrialization policy, SEZs, IT, ITES industries

Social work: Role of social worker and NGO’s in development – community, rural, social, and national level;
public participation in developmental framework- city, regional, and national level, awareness programme on
policies, counseling- rational emotive therapy, behavior modification therapy, family counseling, group work-
treatment group, task group, community work- rural and urban community developments/micro credit/micro
finance\SHGs.

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Methods of mixing and blending; two-folding of yarns; two for one twist principle; man-made fibre
processing.

Principle and details of yarn formation in condensed yarn spinning, rotor spinning, friction spinning,
air-jet spinning and other new spinning systems; structure of yarns produced from different spinning
systems.
Control of waste, productivity and quality.

Fabric Engineering : Fundamental concepts in winding, modern automatic winders; yarn clearing; winding
synthetic and blended yarns and sewing threads; weft winding; Creels used in warping machines; beam and
sectional warping machines; Sizing materials and recipes: size preparation and application; control systems
used in sizing machine; sizing filament yarns; combined dyeing and sizing; energy conservation in sizing;
process control in weaving preparation; preparation of warp beam for weaving.

Yarns quality requirements and preparations for high speed weaving machines.
Principles and limitations of various shedding, picking mechanisms; power required for picking; timing different
mechanisms; automation and modern developments in weaving machine; cloth formation; loom accessories;
process control in weaving.


Cloth geometry; cover factor; concepts in fundamental and advanced woven fabric designs.
Quality and preparation of yarn required for knitting; basic weft knitted structures and their production; needle
control in weft knitting machines; factors affecting the formation of loop; effect of loop length and shape on
fabric properties; process control in knitting; warp knitting fundamentals.
Web forming techniques for dry method of web preparation; production of bonded fabrics by mechanical,
chemical and thermal methods; productions of spun bonded and melt blown fabrics; end uses of bonded
fabrics.


Chemical Processing : Chemical structure and chemical properties of natural and man-made
fibres; singeing; desizing; scouring; bio preparatory operations; Mercerization; bleaching; heat
setting; processing machines.

Adsorption isotherms; dye-fibre interaction; properties and application of direct, azoic, vat, sulphur,
reactive, acid, mordant, metal-complex, disperse and basic dyes; dyeing of blends; garment dyeing;
assessment of colour fastness.

Fundamentals of colour measurement; whiteness and yellowness indices; colour matching;
spectrophotometers.

Methods and styles of printing; printing machines; printing paste; printing with direct, reactive, acid
and disperse dyes and pigments.

Calendering; crease proofing; anti-shrinking; softening; felting and non-felting of wool; bio-polishing;
assessment of finishes; assessment of eco-friendliness of textiles; finishing of knits; garment
washing.

Quality Evaluation: Textile quality parameters; online and off line testing methods.
Measurement of length and length uniformity, fineness, strength, maturity, trash content, moisture
content of fibres using conventional and modern testing methods; advanced fibre information
systems, high volume testing; measurement of lap, sliver and roving irregularity.

Assessment of count, twist, hairiness, strength and extension, evenness, imperfection, friction, crimp
rigidity, work of rupture, fatigue, abrasion resistance of yarn; classification of yarn faults.
Determination of fabric construction parameters; assessment of tensile, bursting and tear strengths,
low-stress mechanical properties, permeability, insulation properties, durability, comfort and handle
properties of fabrics; grading of fabrics based on defects. Sampling; statistical significance tests;
control charts.

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Sl.No Group - A
1. Civil Engineering
2. Computer Science and Information Technology
3. Electrical and Electronics Engineering
4. Electronics and Communication Engineering
5. Mechanical Engineering
Group - B
6. Automobile Engineering
7. Aeronautical and Aerospace Engineering
8. Architecture
9. Agricultural and Irrigation Engineering
10. Bio – technology
11. Bio – Medical Engineering
12. Chemical Engineering
13. Earth Sciences
14. Geo – Informatics
15. Instrumentation, Electronics and Control Engineering
16. Leather Technology
17. Mathematics
18. Material Science and Ceramic Technology
19. Printing Technology
20. Physics
21. Production and Industrial Engineering
22. Social Sciences
23. Textile Technology